use strict;
use warnings;
-use base 'DBIx::Class::Storage';
+use base qw/DBIx::Class::Storage::DBIHacks DBIx::Class::Storage/;
use mro 'c3';
use Carp::Clan qw/^DBIx::Class/;
use DBIx::Class::Storage::Statistics;
use Scalar::Util();
use List::Util();
+use Data::Dumper::Concise();
+use Sub::Name ();
+
+# what version of sqlt do we require if deploy() without a ddl_dir is invoked
+# when changing also adjust the corresponding author_require in Makefile.PL
+my $minimum_sqlt_version = '0.11002';
+
__PACKAGE__->mk_group_accessors('simple' =>
qw/_connect_info _dbi_connect_info _dbh _sql_maker _sql_maker_opts _conn_pid
__PACKAGE__->sql_maker_class('DBIx::Class::SQLAHacks');
+# Each of these methods need _determine_driver called before itself
+# in order to function reliably. This is a purely DRY optimization
+my @rdbms_specific_methods = qw/
+ sqlt_type
+ build_datetime_parser
+ datetime_parser_type
+
+ insert
+ insert_bulk
+ update
+ delete
+ select
+ select_single
+/;
+
+for my $meth (@rdbms_specific_methods) {
+
+ my $orig = __PACKAGE__->can ($meth)
+ or next;
+
+ no strict qw/refs/;
+ no warnings qw/redefine/;
+ *{__PACKAGE__ ."::$meth"} = Sub::Name::subname $meth => sub {
+ if (not $_[0]->_driver_determined) {
+ $_[0]->_determine_driver;
+ goto $_[0]->can($meth);
+ }
+ $orig->(@_);
+ };
+}
+
+
=head1 NAME
DBIx::Class::Storage::DBI - DBI storage handler
my $schema = MySchema->connect('dbi:SQLite:my.db');
$schema->storage->debug(1);
- $schema->dbh_do("DROP TABLE authors");
+
+ my @stuff = $schema->storage->dbh_do(
+ sub {
+ my ($storage, $dbh, @args) = @_;
+ $dbh->do("DROP TABLE authors");
+ },
+ @column_list
+ );
$schema->resultset('Book')->search({
written_on => $schema->storage->datetime_parser(DateTime->now)
%extra_attributes,
}];
+ $connect_info_args = [{
+ dbh_maker => sub { DBI->connect (...) },
+ %dbi_attributes,
+ %extra_attributes,
+ }];
+
This is particularly useful for L<Catalyst> based applications, allowing the
following config (L<Config::General> style):
</connect_info>
</Model::DB>
+The C<dsn>/C<user>/C<password> combination can be substituted by the
+C<dbh_maker> key whose value is a coderef that returns a connected
+L<DBI database handle|DBI/connect>
+
=back
Please note that the L<DBI> docs recommend that you always explicitly
# Connect via subref
->connect_info([ sub { DBI->connect(...) } ]);
+ # Connect via subref in hashref
+ ->connect_info([{
+ dbh_maker => sub { DBI->connect(...) },
+ on_connect_do => 'alter session ...',
+ }]);
+
# A bit more complicated
->connect_info(
[
elsif (ref $args[0] eq 'HASH') { # single hashref (i.e. Catalyst config)
%attrs = %{$args[0]};
@args = ();
- for (qw/password user dsn/) {
- unshift @args, delete $attrs{$_};
+ if (my $code = delete $attrs{dbh_maker}) {
+ @args = $code;
+
+ my @ignored = grep { delete $attrs{$_} } (qw/dsn user password/);
+ if (@ignored) {
+ carp sprintf (
+ 'Attribute(s) %s in connect_info were ignored, as they can not be applied '
+ . "to the result of 'dbh_maker'",
+
+ join (', ', map { "'$_'" } (@ignored) ),
+ );
+ }
+ }
+ else {
+ @args = delete @attrs{qw/dsn user password/};
}
}
else { # otherwise assume dsn/user/password + \%attrs + \%extra_attrs
my $self = shift;
my $code = shift;
- my $dbh = $self->_dbh;
+ my $dbh = $self->_get_dbh;
return $self->$code($dbh, @_) if $self->{_in_dbh_do}
|| $self->{transaction_depth};
my $want_array = wantarray;
eval {
- $self->_verify_pid if $dbh;
- if(!$self->_dbh) {
- $self->_populate_dbh;
- $dbh = $self->_dbh;
- }
if($want_array) {
@result = $self->$code($dbh, @_);
my $tried = 0;
while(1) {
eval {
- $self->_verify_pid if $self->_dbh;
- $self->_populate_dbh if !$self->_dbh;
+ $self->_get_dbh;
$self->txn_begin;
if($want_array) {
$self->_do_connection_actions(disconnect_call_ => $_) for @actions;
- $self->_dbh->rollback unless $self->_dbh_autocommit;
+ $self->_dbh_rollback unless $self->_dbh_autocommit;
+
$self->_dbh->disconnect;
$self->_dbh(undef);
$self->{_dbh_gen}++;
# Storage subclasses should override this
sub with_deferred_fk_checks {
my ($self, $sub) = @_;
-
$sub->();
}
# this is the internal "get dbh or connect (don't check)" method
sub _get_dbh {
my $self = shift;
+ $self->_verify_pid if $self->_dbh;
$self->_populate_dbh unless $self->_dbh;
return $self->_dbh;
}
return $self->_sql_maker;
}
+# nothing to do by default
sub _rebless {}
+sub _init {}
sub _populate_dbh {
my ($self) = @_;
my ($self) = @_;
if ((not $self->_driver_determined) && (not $self->{_in_determine_driver})) {
- my $started_unconnected = 0;
+ my $started_connected = 0;
local $self->{_in_determine_driver} = 1;
if (ref($self) eq __PACKAGE__) {
my $driver;
if ($self->_dbh) { # we are connected
$driver = $self->_dbh->{Driver}{Name};
+ $started_connected = 1;
} else {
- # try to use dsn to not require being connected, the driver may still
- # force a connection in _rebless to determine version
- ($driver) = $self->_dbi_connect_info->[0] =~ /dbi:([^:]+):/i;
- $started_unconnected = 1;
+ # if connect_info is a CODEREF, we have no choice but to connect
+ if (ref $self->_dbi_connect_info->[0] &&
+ Scalar::Util::reftype($self->_dbi_connect_info->[0]) eq 'CODE') {
+ $self->_populate_dbh;
+ $driver = $self->_dbh->{Driver}{Name};
+ }
+ else {
+ # try to use dsn to not require being connected, the driver may still
+ # force a connection in _rebless to determine version
+ ($driver) = $self->_dbi_connect_info->[0] =~ /dbi:([^:]+):/i;
+ }
}
my $storage_class = "DBIx::Class::Storage::DBI::${driver}";
$self->_driver_determined(1);
+ $self->_init; # run driver-specific initializations
+
$self->_run_connection_actions
- if $started_unconnected && defined $self->_dbh;
+ if !$started_connected && defined $self->_dbh;
}
}
my @bind = map { [ undef, $_ ] } @do_args;
$self->_query_start($sql, @bind);
- $self->_dbh->do($sql, $attrs, @do_args);
+ $self->_get_dbh->do($sql, $attrs, @do_args);
$self->_query_end($sql, @bind);
}
$weak_self->throw_exception("DBI Exception: $_[0]");
}
else {
+ # the handler may be invoked by something totally out of
+ # the scope of DBIC
croak ("DBI Exception: $_[0]");
}
};
if($self->{transaction_depth} == 0) {
$self->debugobj->txn_begin()
if $self->debug;
-
- # being here implies we have AutoCommit => 1
- # if the user is utilizing txn_do - good for
- # him, otherwise we need to ensure that the
- # $dbh is healthy on BEGIN
- my $dbh_method = $self->{_in_dbh_do} ? '_dbh' : 'dbh';
- $self->$dbh_method->begin_work;
-
- } elsif ($self->auto_savepoint) {
+ $self->_dbh_begin_work;
+ }
+ elsif ($self->auto_savepoint) {
$self->svp_begin;
}
$self->{transaction_depth}++;
}
+sub _dbh_begin_work {
+ my $self = shift;
+
+ # if the user is utilizing txn_do - good for him, otherwise we need to
+ # ensure that the $dbh is healthy on BEGIN.
+ # We do this via ->dbh_do instead of ->dbh, so that the ->dbh "ping"
+ # will be replaced by a failure of begin_work itself (which will be
+ # then retried on reconnect)
+ if ($self->{_in_dbh_do}) {
+ $self->_dbh->begin_work;
+ } else {
+ $self->dbh_do(sub { $_[1]->begin_work });
+ }
+}
+
sub txn_commit {
my $self = shift;
if ($self->{transaction_depth} == 1) {
- my $dbh = $self->_dbh;
$self->debugobj->txn_commit()
if ($self->debug);
- $dbh->commit;
+ $self->_dbh_commit;
$self->{transaction_depth} = 0
if $self->_dbh_autocommit;
}
}
}
+sub _dbh_commit {
+ my $self = shift;
+ my $dbh = $self->_dbh
+ or $self->throw_exception('cannot COMMIT on a disconnected handle');
+ $dbh->commit;
+}
+
sub txn_rollback {
my $self = shift;
my $dbh = $self->_dbh;
if ($self->debug);
$self->{transaction_depth} = 0
if $self->_dbh_autocommit;
- $dbh->rollback;
+ $self->_dbh_rollback;
}
elsif($self->{transaction_depth} > 1) {
$self->{transaction_depth}--;
}
}
+sub _dbh_rollback {
+ my $self = shift;
+ my $dbh = $self->_dbh
+ or $self->throw_exception('cannot ROLLBACK on a disconnected handle');
+ $dbh->rollback;
+}
+
# This used to be the top-half of _execute. It was split out to make it
# easier to override in NoBindVars without duping the rest. It takes up
# all of _execute's args, and emits $sql, @bind.
}
}
+sub _sth_bind_param {
+ my ($self, $sth, $placeholder_index, $data, $attributes) = @_;
+
+ $sth->bind_param($placeholder_index, $data, $attributes);
+}
+
sub _dbh_execute {
my ($self, $dbh, $op, $extra_bind, $ident, $bind_attributes, @args) = @_;
my $ref = ref $data;
$data = $ref && $ref ne 'ARRAY' ? ''.$data : $data; # stringify args (except arrayrefs)
- $sth->bind_param($placeholder_index, $data, $attributes);
+ $self->_sth_bind_param($sth, $placeholder_index, $data, $attributes);
$placeholder_index++;
}
}
sub _execute {
my $self = shift;
- $self->dbh_do('_dbh_execute', @_)
+ $self->dbh_do('_dbh_execute', @_); # retry over disconnects
}
sub insert {
my ($self, $source, $to_insert) = @_;
-# redispatch to insert method of storage we reblessed into, if necessary
- if (not $self->_driver_determined) {
- $self->_determine_driver;
- goto $self->can('insert');
- }
-
my $ident = $source->from;
my $bind_attributes = $self->source_bind_attributes($source);
## only prepped once.
sub insert_bulk {
my ($self, $source, $cols, $data) = @_;
+
my %colvalues;
- my $table = $source->from;
@colvalues{@$cols} = (0..$#$cols);
- my ($sql, @bind) = $self->sql_maker->insert($table, \%colvalues);
- $self->_determine_driver;
+ for my $i (0..$#$cols) {
+ my $first_val = $data->[0][$i];
+ next unless ref $first_val eq 'SCALAR';
+
+ $colvalues{ $cols->[$i] } = $first_val;
+ }
+
+ # check for bad data and stringify stringifiable objects
+ my $bad_slice = sub {
+ my ($msg, $col_idx, $slice_idx) = @_;
+ $self->throw_exception(sprintf "%s for column '%s' in populate slice:\n%s",
+ $msg,
+ $cols->[$col_idx],
+ do {
+ local $Data::Dumper::Maxdepth = 1; # don't dump objects, if any
+ Data::Dumper::Concise::Dumper({
+ map { $cols->[$_] => $data->[$slice_idx][$_] } (0 .. $#$cols)
+ }),
+ }
+ );
+ };
+
+ for my $datum_idx (0..$#$data) {
+ my $datum = $data->[$datum_idx];
+
+ for my $col_idx (0..$#$cols) {
+ my $val = $datum->[$col_idx];
+ my $sqla_bind = $colvalues{ $cols->[$col_idx] };
+ my $is_literal_sql = (ref $sqla_bind) eq 'SCALAR';
+
+ if ($is_literal_sql) {
+ if (not ref $val) {
+ $bad_slice->('bind found where literal SQL expected', $col_idx, $datum_idx);
+ }
+ elsif ((my $reftype = ref $val) ne 'SCALAR') {
+ $bad_slice->("$reftype reference found where literal SQL expected",
+ $col_idx, $datum_idx);
+ }
+ elsif ($$val ne $$sqla_bind){
+ $bad_slice->("inconsistent literal SQL value, expecting: '$$sqla_bind'",
+ $col_idx, $datum_idx);
+ }
+ }
+ elsif (my $reftype = ref $val) {
+ require overload;
+ if (overload::Method($val, '""')) {
+ $datum->[$col_idx] = "".$val;
+ }
+ else {
+ $bad_slice->("$reftype reference found where bind expected",
+ $col_idx, $datum_idx);
+ }
+ }
+ }
+ }
+
+ my ($sql, $bind) = $self->_prep_for_execute (
+ 'insert', undef, $source, [\%colvalues]
+ );
+ my @bind = @$bind;
+
+ my $empty_bind = 1 if (not @bind) &&
+ (grep { ref $_ eq 'SCALAR' } values %colvalues) == @$cols;
+
+ if ((not @bind) && (not $empty_bind)) {
+ $self->throw_exception(
+ 'Cannot insert_bulk without support for placeholders'
+ );
+ }
- $self->_query_start( $sql, @bind );
+ $self->_query_start( $sql, ['__BULK__'] );
my $sth = $self->sth($sql);
-# @bind = map { ref $_ ? ''.$_ : $_ } @bind; # stringify args
+ my $rv = do {
+ if ($empty_bind) {
+ # bind_param_array doesn't work if there are no binds
+ $self->_dbh_execute_inserts_with_no_binds( $sth, scalar @$data );
+ }
+ else {
+# @bind = map { ref $_ ? ''.$_ : $_ } @bind; # stringify args
+ $self->_execute_array( $source, $sth, \@bind, $cols, $data );
+ }
+ };
+
+ $self->_query_end( $sql, ['__BULK__'] );
+
+ return (wantarray ? ($rv, $sth, @bind) : $rv);
+}
+
+sub _execute_array {
+ my ($self, $source, $sth, $bind, $cols, $data, @extra) = @_;
+
+ my $guard = $self->txn_scope_guard unless $self->{transaction_depth} != 0;
## This must be an arrayref, else nothing works!
my $tuple_status = [];
## Bind the values and execute
my $placeholder_index = 1;
- foreach my $bound (@bind) {
+ foreach my $bound (@$bind) {
my $attributes = {};
my ($column_name, $data_index) = @$bound;
$sth->bind_param_array( $placeholder_index, [@data], $attributes );
$placeholder_index++;
}
- my $rv = eval { $sth->execute_array({ArrayTupleStatus => $tuple_status}) };
- if (my $err = $@) {
+
+ my $rv = eval {
+ $self->_dbh_execute_array($sth, $tuple_status, @extra);
+ };
+ my $err = $@ || $sth->errstr;
+
+# Statement must finish even if there was an exception.
+ eval { $sth->finish };
+ $err = $@ unless $err;
+
+ if ($err) {
my $i = 0;
++$i while $i <= $#$tuple_status && !ref $tuple_status->[$i];
- $self->throw_exception($sth->errstr || "Unexpected populate error: $err")
+ $self->throw_exception("Unexpected populate error: $err")
if ($i > $#$tuple_status);
- require Data::Dumper;
- local $Data::Dumper::Terse = 1;
- local $Data::Dumper::Indent = 1;
- local $Data::Dumper::Useqq = 1;
- local $Data::Dumper::Quotekeys = 0;
-
$self->throw_exception(sprintf "%s for populate slice:\n%s",
- $tuple_status->[$i][1],
- Data::Dumper::Dumper(
- { map { $cols->[$_] => $data->[$i][$_] } (0 .. $#$cols) }
- ),
+ ($tuple_status->[$i][1] || $err),
+ Data::Dumper::Concise::Dumper({
+ map { $cols->[$_] => $data->[$i][$_] } (0 .. $#$cols)
+ }),
);
}
- $self->throw_exception($sth->errstr) if !$rv;
- $self->_query_end( $sql, @bind );
- return (wantarray ? ($rv, $sth, @bind) : $rv);
+ $guard->commit if $guard;
+
+ return $rv;
+}
+
+sub _dbh_execute_array {
+ my ($self, $sth, $tuple_status, @extra) = @_;
+
+ return $sth->execute_array({ArrayTupleStatus => $tuple_status});
+}
+
+sub _dbh_execute_inserts_with_no_binds {
+ my ($self, $sth, $count) = @_;
+
+ my $guard = $self->txn_scope_guard unless $self->{transaction_depth} != 0;
+
+ eval {
+ my $dbh = $self->_get_dbh;
+ local $dbh->{RaiseError} = 1;
+ local $dbh->{PrintError} = 0;
+
+ $sth->execute foreach 1..$count;
+ };
+ my $exception = $@;
+
+# Make sure statement is finished even if there was an exception.
+ eval { $sth->finish };
+ $exception = $@ unless $exception;
+
+ $self->throw_exception($exception) if $exception;
+
+ $guard->commit if $guard;
+
+ return $count;
}
sub update {
- my $self = shift @_;
- my $source = shift @_;
- $self->_determine_driver;
- my $bind_attributes = $self->source_bind_attributes($source);
+ my ($self, $source, @args) = @_;
- return $self->_execute('update' => [], $source, $bind_attributes, @_);
+ my $bind_attrs = $self->source_bind_attributes($source);
+
+ return $self->_execute('update' => [], $source, $bind_attrs, @args);
}
sub delete {
- my $self = shift @_;
- my $source = shift @_;
- $self->_determine_driver;
+ my ($self, $source, @args) = @_;
+
my $bind_attrs = $self->source_bind_attributes($source);
- return $self->_execute('delete' => [], $source, $bind_attrs, @_);
+ return $self->_execute('delete' => [], $source, $bind_attrs, @args);
}
# We were sent here because the $rs contains a complex search
# which will require a subquery to select the correct rows
-# (i.e. joined or limited resultsets)
+# (i.e. joined or limited resultsets, or non-introspectable conditions)
#
-# Genarating a single PK column subquery is trivial and supported
+# Generating a single PK column subquery is trivial and supported
# by all RDBMS. However if we have a multicolumn PK, things get ugly.
# Look at _multipk_update_delete()
sub _subq_update_delete {
my $rsrc = $rs->result_source;
- # we already check this, but double check naively just in case. Should be removed soon
+ # quick check if we got a sane rs on our hands
+ my @pcols = $rsrc->primary_columns;
+ unless (@pcols) {
+ $self->throw_exception (
+ sprintf (
+ "You must declare primary key(s) on source '%s' (via set_primary_key) in order to update or delete complex resultsets",
+ $rsrc->source_name || $rsrc->from
+ )
+ );
+ }
+
my $sel = $rs->_resolved_attrs->{select};
$sel = [ $sel ] unless ref $sel eq 'ARRAY';
- my @pcols = $rsrc->primary_columns;
- if (@$sel != @pcols) {
+
+ if (
+ join ("\x00", map { join '.', $rs->{attrs}{alias}, $_ } sort @pcols)
+ ne
+ join ("\x00", sort @$sel )
+ ) {
$self->throw_exception (
- 'Subquery update/delete can not be called on resultsets selecting a'
- .' number of columns different than the number of primary keys'
+ '_subq_update_delete can not be called on resultsets selecting columns other than the primary keys'
);
}
return ('select', $attrs->{bind}, $ident, $bind_attrs, $select, $where, $order, @limit);
}
-#
-# This is the code producing joined subqueries like:
-# SELECT me.*, other.* FROM ( SELECT me.* FROM ... ) JOIN other ON ...
-#
-sub _adjust_select_args_for_complex_prefetch {
- my ($self, $from, $select, $where, $attrs) = @_;
-
- $self->throw_exception ('Nothing to prefetch... how did we get here?!')
- if not @{$attrs->{_prefetch_select}};
-
- $self->throw_exception ('Complex prefetches are not supported on resultsets with a custom from attribute')
- if (ref $from ne 'ARRAY' || ref $from->[0] ne 'HASH' || ref $from->[1] ne 'ARRAY');
-
-
- # generate inner/outer attribute lists, remove stuff that doesn't apply
- my $outer_attrs = { %$attrs };
- delete $outer_attrs->{$_} for qw/where bind rows offset group_by having/;
-
- my $inner_attrs = { %$attrs };
- delete $inner_attrs->{$_} for qw/for collapse _prefetch_select _collapse_order_by select as/;
-
-
- # bring over all non-collapse-induced order_by into the inner query (if any)
- # the outer one will have to keep them all
- delete $inner_attrs->{order_by};
- if (my $ord_cnt = @{$outer_attrs->{order_by}} - @{$outer_attrs->{_collapse_order_by}} ) {
- $inner_attrs->{order_by} = [
- @{$outer_attrs->{order_by}}[ 0 .. $ord_cnt - 1]
- ];
- }
-
-
- # generate the inner/outer select lists
- # for inside we consider only stuff *not* brought in by the prefetch
- # on the outside we substitute any function for its alias
- my $outer_select = [ @$select ];
- my $inner_select = [];
- for my $i (0 .. ( @$outer_select - @{$outer_attrs->{_prefetch_select}} - 1) ) {
- my $sel = $outer_select->[$i];
-
- if (ref $sel eq 'HASH' ) {
- $sel->{-as} ||= $attrs->{as}[$i];
- $outer_select->[$i] = join ('.', $attrs->{alias}, ($sel->{-as} || "inner_column_$i") );
- }
-
- push @$inner_select, $sel;
- }
-
- # normalize a copy of $from, so it will be easier to work with further
- # down (i.e. promote the initial hashref to an AoH)
- $from = [ @$from ];
- $from->[0] = [ $from->[0] ];
- my %original_join_info = map { $_->[0]{-alias} => $_->[0] } (@$from);
-
-
- # decide which parts of the join will remain in either part of
- # the outer/inner query
-
- # First we compose a list of which aliases are used in restrictions
- # (i.e. conditions/order/grouping/etc). Since we do not have
- # introspectable SQLA, we fall back to ugly scanning of raw SQL for
- # WHERE, and for pieces of ORDER BY in order to determine which aliases
- # need to appear in the resulting sql.
- # It may not be very efficient, but it's a reasonable stop-gap
- # Also unqualified column names will not be considered, but more often
- # than not this is actually ok
- #
- # In the same loop we enumerate part of the selection aliases, as
- # it requires the same sqla hack for the time being
- my ($restrict_aliases, $select_aliases, $prefetch_aliases);
- {
- # produce stuff unquoted, so it can be scanned
- my $sql_maker = $self->sql_maker;
- local $sql_maker->{quote_char};
- my $sep = $self->_sql_maker_opts->{name_sep} || '.';
- $sep = "\Q$sep\E";
-
- my $non_prefetch_select_sql = $sql_maker->_recurse_fields ($inner_select);
- my $prefetch_select_sql = $sql_maker->_recurse_fields ($outer_attrs->{_prefetch_select});
- my $where_sql = $sql_maker->where ($where);
- my $group_by_sql = $sql_maker->_order_by({
- map { $_ => $inner_attrs->{$_} } qw/group_by having/
- });
- my @non_prefetch_order_by_chunks = (map
- { ref $_ ? $_->[0] : $_ }
- $sql_maker->_order_by_chunks ($inner_attrs->{order_by})
- );
-
-
- for my $alias (keys %original_join_info) {
- my $seen_re = qr/\b $alias $sep/x;
-
- for my $piece ($where_sql, $group_by_sql, @non_prefetch_order_by_chunks ) {
- if ($piece =~ $seen_re) {
- $restrict_aliases->{$alias} = 1;
- }
- }
-
- if ($non_prefetch_select_sql =~ $seen_re) {
- $select_aliases->{$alias} = 1;
- }
-
- if ($prefetch_select_sql =~ $seen_re) {
- $prefetch_aliases->{$alias} = 1;
- }
-
- }
- }
-
- # Add any non-left joins to the restriction list (such joins are indeed restrictions)
- for my $j (values %original_join_info) {
- my $alias = $j->{-alias} or next;
- $restrict_aliases->{$alias} = 1 if (
- (not $j->{-join_type})
- or
- ($j->{-join_type} !~ /^left (?: \s+ outer)? $/xi)
- );
- }
-
- # mark all join parents as mentioned
- # (e.g. join => { cds => 'tracks' } - tracks will need to bring cds too )
- for my $collection ($restrict_aliases, $select_aliases) {
- for my $alias (keys %$collection) {
- $collection->{$_} = 1
- for (@{ $original_join_info{$alias}{-join_path} || [] });
- }
- }
-
- # construct the inner $from for the subquery
- my %inner_joins = (map { %{$_ || {}} } ($restrict_aliases, $select_aliases) );
- my @inner_from;
- for my $j (@$from) {
- push @inner_from, $j if $inner_joins{$j->[0]{-alias}};
- }
-
- # if a multi-type join was needed in the subquery ("multi" is indicated by
- # presence in {collapse}) - add a group_by to simulate the collapse in the subq
- unless ($inner_attrs->{group_by}) {
- for my $alias (keys %inner_joins) {
-
- # the dot comes from some weirdness in collapse
- # remove after the rewrite
- if ($attrs->{collapse}{".$alias"}) {
- $inner_attrs->{group_by} ||= $inner_select;
- last;
- }
- }
- }
-
- # demote the inner_from head
- $inner_from[0] = $inner_from[0][0];
-
- # generate the subquery
- my $subq = $self->_select_args_to_query (
- \@inner_from,
- $inner_select,
- $where,
- $inner_attrs,
- );
-
- my $subq_joinspec = {
- -alias => $attrs->{alias},
- -source_handle => $inner_from[0]{-source_handle},
- $attrs->{alias} => $subq,
- };
-
- # Generate the outer from - this is relatively easy (really just replace
- # the join slot with the subquery), with a major caveat - we can not
- # join anything that is non-selecting (not part of the prefetch), but at
- # the same time is a multi-type relationship, as it will explode the result.
- #
- # There are two possibilities here
- # - either the join is non-restricting, in which case we simply throw it away
- # - it is part of the restrictions, in which case we need to collapse the outer
- # result by tackling yet another group_by to the outside of the query
-
- # so first generate the outer_from, up to the substitution point
- my @outer_from;
- while (my $j = shift @$from) {
- if ($j->[0]{-alias} eq $attrs->{alias}) { # time to swap
- push @outer_from, [
- $subq_joinspec,
- @{$j}[1 .. $#$j],
- ];
- last; # we'll take care of what's left in $from below
- }
- else {
- push @outer_from, $j;
- }
- }
-
- # see what's left - throw away if not selecting/restricting
- # also throw in a group_by if restricting to guard against
- # cross-join explosions
- #
- while (my $j = shift @$from) {
- my $alias = $j->[0]{-alias};
-
- if ($select_aliases->{$alias} || $prefetch_aliases->{$alias}) {
- push @outer_from, $j;
- }
- elsif ($restrict_aliases->{$alias}) {
- push @outer_from, $j;
-
- # FIXME - this should be obviated by SQLA2, as I'll be able to
- # have restrict_inner and restrict_outer... or something to that
- # effect... I think...
-
- # FIXME2 - I can't find a clean way to determine if a particular join
- # is a multi - instead I am just treating everything as a potential
- # explosive join (ribasushi)
- #
- # if (my $handle = $j->[0]{-source_handle}) {
- # my $rsrc = $handle->resolve;
- # ... need to bail out of the following if this is not a multi,
- # as it will be much easier on the db ...
-
- $outer_attrs->{group_by} ||= $outer_select;
- # }
- }
- }
-
- # demote the outer_from head
- $outer_from[0] = $outer_from[0][0];
-
- # This is totally horrific - the $where ends up in both the inner and outer query
- # Unfortunately not much can be done until SQLA2 introspection arrives, and even
- # then if where conditions apply to the *right* side of the prefetch, you may have
- # to both filter the inner select (e.g. to apply a limit) and then have to re-filter
- # the outer select to exclude joins you didin't want in the first place
- #
- # OTOH it can be seen as a plus: <ash> (notes that this query would make a DBA cry ;)
- return (\@outer_from, $outer_select, $where, $outer_attrs);
-}
-
-sub _resolve_ident_sources {
- my ($self, $ident) = @_;
-
- my $alias2source = {};
- my $rs_alias;
-
- # the reason this is so contrived is that $ident may be a {from}
- # structure, specifying multiple tables to join
- if ( Scalar::Util::blessed($ident) && $ident->isa("DBIx::Class::ResultSource") ) {
- # this is compat mode for insert/update/delete which do not deal with aliases
- $alias2source->{me} = $ident;
- $rs_alias = 'me';
- }
- elsif (ref $ident eq 'ARRAY') {
-
- for (@$ident) {
- my $tabinfo;
- if (ref $_ eq 'HASH') {
- $tabinfo = $_;
- $rs_alias = $tabinfo->{-alias};
- }
- if (ref $_ eq 'ARRAY' and ref $_->[0] eq 'HASH') {
- $tabinfo = $_->[0];
- }
-
- $alias2source->{$tabinfo->{-alias}} = $tabinfo->{-source_handle}->resolve
- if ($tabinfo->{-source_handle});
- }
- }
-
- return ($alias2source, $rs_alias);
-}
-
-# Takes $ident, \@column_names
-#
-# returns { $column_name => \%column_info, ... }
-# also note: this adds -result_source => $rsrc to the column info
-#
-# usage:
-# my $col_sources = $self->_resolve_column_info($ident, @column_names);
-sub _resolve_column_info {
- my ($self, $ident, $colnames) = @_;
- my ($alias2src, $root_alias) = $self->_resolve_ident_sources($ident);
-
- my $sep = $self->_sql_maker_opts->{name_sep} || '.';
- $sep = "\Q$sep\E";
-
- my (%return, %seen_cols);
-
- # compile a global list of column names, to be able to properly
- # disambiguate unqualified column names (if at all possible)
- for my $alias (keys %$alias2src) {
- my $rsrc = $alias2src->{$alias};
- for my $colname ($rsrc->columns) {
- push @{$seen_cols{$colname}}, $alias;
- }
- }
-
- COLUMN:
- foreach my $col (@$colnames) {
- my ($alias, $colname) = $col =~ m/^ (?: ([^$sep]+) $sep)? (.+) $/x;
-
- unless ($alias) {
- # see if the column was seen exactly once (so we know which rsrc it came from)
- if ($seen_cols{$colname} and @{$seen_cols{$colname}} == 1) {
- $alias = $seen_cols{$colname}[0];
- }
- else {
- next COLUMN;
- }
- }
-
- my $rsrc = $alias2src->{$alias};
- $return{$col} = $rsrc && {
- %{$rsrc->column_info($colname)},
- -result_source => $rsrc,
- -source_alias => $alias,
- };
- }
-
- return \%return;
-}
-
# Returns a counting SELECT for a simple count
# query. Abstracted so that a storage could override
# this to { count => 'firstcol' } or whatever makes
return @pcols ? \@pcols : [ 1 ];
}
-
sub source_bind_attributes {
my ($self, $source) = @_;
sub sth {
my ($self, $sql) = @_;
- $self->dbh_do('_dbh_sth', $sql);
+ $self->dbh_do('_dbh_sth', $sql); # retry over disconnects
}
sub _dbh_columns_info_for {
sub columns_info_for {
my ($self, $table) = @_;
- $self->dbh_do('_dbh_columns_info_for', $table);
+ $self->_dbh_columns_info_for ($self->_get_dbh, $table);
}
=head2 last_insert_id
sub last_insert_id {
my $self = shift;
- $self->dbh_do('_dbh_last_insert_id', @_);
+ $self->_dbh_last_insert_id ($self->_dbh, @_);
+}
+
+=head2 _native_data_type
+
+=over 4
+
+=item Arguments: $type_name
+
+=back
+
+This API is B<EXPERIMENTAL>, will almost definitely change in the future, and
+currently only used by L<::AutoCast|DBIx::Class::Storage::DBI::AutoCast> and
+L<::Sybase::ASE|DBIx::Class::Storage::DBI::Sybase::ASE>.
+
+The default implementation returns C<undef>, implement in your Storage driver if
+you need this functionality.
+
+Should map types from other databases to the native RDBMS type, for example
+C<VARCHAR2> to C<VARCHAR>.
+
+Types with modifiers should map to the underlying data type. For example,
+C<INTEGER AUTO_INCREMENT> should become C<INTEGER>.
+
+Composite types should map to the container type, for example
+C<ENUM(foo,bar,baz)> becomes C<ENUM>.
+
+=cut
+
+sub _native_data_type {
+ #my ($self, $data_type) = @_;
+ return undef
+}
+
+# Check if placeholders are supported at all
+sub _placeholders_supported {
+ my $self = shift;
+ my $dbh = $self->_get_dbh;
+
+ # some drivers provide a $dbh attribute (e.g. Sybase and $dbh->{syb_dynamic_supported})
+ # but it is inaccurate more often than not
+ eval {
+ local $dbh->{PrintError} = 0;
+ local $dbh->{RaiseError} = 1;
+ $dbh->do('select ?', {}, 1);
+ };
+ return $@ ? 0 : 1;
+}
+
+# Check if placeholders bound to non-string types throw exceptions
+#
+sub _typeless_placeholders_supported {
+ my $self = shift;
+ my $dbh = $self->_get_dbh;
+
+ eval {
+ local $dbh->{PrintError} = 0;
+ local $dbh->{RaiseError} = 1;
+ # this specifically tests a bind that is NOT a string
+ $dbh->do('select 1 where 1 = ?', {}, 1);
+ };
+ return $@ ? 0 : 1;
}
=head2 sqlt_type
=cut
sub sqlt_type {
- my ($self) = @_;
-
- if (not $self->_driver_determined) {
- $self->_determine_driver;
- goto $self->can ('sqlt_type');
- }
-
- $self->_get_dbh->{Driver}->{Name};
+ shift->_get_dbh->{Driver}->{Name};
}
=head2 bind_attribute_by_data_type
%{$sqltargs || {}}
};
- $self->throw_exception(q{Can't create a ddl file without SQL::Translator 0.09003: '}
- . $self->_check_sqlt_message . q{'})
- if !$self->_check_sqlt_version;
+ $self->throw_exception("Can't create a ddl file without SQL::Translator: " . $self->_sqlt_version_error)
+ if !$self->_sqlt_version_ok;
my $sqlt = SQL::Translator->new( $sqltargs );
return join('', @rows);
}
- $self->throw_exception(q{Can't deploy without SQL::Translator 0.09003: '}
- . $self->_check_sqlt_message . q{'})
- if !$self->_check_sqlt_version;
+ $self->throw_exception("Can't deploy without either SQL::Translator or a ddl_dir: " . $self->_sqlt_version_error )
+ if !$self->_sqlt_version_ok;
# sources needs to be a parser arg, but for simplicty allow at top level
# coming in
parser => 'SQL::Translator::Parser::DBIx::Class',
data => $schema,
);
- return $tr->translate;
+
+ my $ret = $tr->translate
+ or $self->throw_exception( 'Unable to produce deployment statements: ' . $tr->error);
+
+ return $ret;
}
sub deploy {
sub datetime_parser {
my $self = shift;
return $self->{datetime_parser} ||= do {
- $self->_populate_dbh unless $self->_dbh;
$self->build_datetime_parser(@_);
};
}
sub build_datetime_parser {
my $self = shift;
my $type = $self->datetime_parser_type(@_);
- eval "use ${type}";
- $self->throw_exception("Couldn't load ${type}: $@") if $@;
+ $self->ensure_class_loaded ($type);
return $type;
}
-{
- my $_check_sqlt_version; # private
- my $_check_sqlt_message; # private
- sub _check_sqlt_version {
- return $_check_sqlt_version if defined $_check_sqlt_version;
- eval 'use SQL::Translator "0.09003"';
- $_check_sqlt_message = $@ || '';
- $_check_sqlt_version = !$@;
- }
-
- sub _check_sqlt_message {
- _check_sqlt_version if !defined $_check_sqlt_message;
- $_check_sqlt_message;
- }
-}
=head2 is_replicating
return;
}
+# SQLT version handling
+{
+ my $_sqlt_version_ok; # private
+ my $_sqlt_version_error; # private
+
+ sub _sqlt_version_ok {
+ if (!defined $_sqlt_version_ok) {
+ eval "use SQL::Translator $minimum_sqlt_version";
+ if ($@) {
+ $_sqlt_version_ok = 0;
+ $_sqlt_version_error = $@;
+ }
+ else {
+ $_sqlt_version_ok = 1;
+ }
+ }
+ return $_sqlt_version_ok;
+ }
+
+ sub _sqlt_version_error {
+ shift->_sqlt_version_ok unless defined $_sqlt_version_ok;
+ return $_sqlt_version_error;
+ }
+
+ sub _sqlt_minimum_version { $minimum_sqlt_version };
+}
+
sub DESTROY {
my $self = shift;
+
$self->_verify_pid if $self->_dbh;
# some databases need this to stop spewing warnings
if (my $dbh = $self->_dbh) {
+ local $@;
eval { $dbh->disconnect };
}